Conduit clamp



Aug. 4, 1959 H. L. HOKE Filed Aug. 20, 1957 CONDUIT CLAMP S KQ w, f/ A \D um N l l H. L. HOKE CONDUIT CLAMP Aug. 4, 1959 3v Sheets-Sheet 2 med Aug. 2o, 1957 Aug. 4, 1959 H. HOKE coNnUIT CLAMP 3 Sheets-Sheet 3 Filed Aug. 20, 1957 United sate. -11

23391568 coNDlT-CLAMP "Howard L. lieke, Brdior'd, Pa., assi'gnor to Dresser Industries, Inc., Dallas, Pa., a corporation of Delaware Application August 20,/7'1'951 ISerial No. 679,168 1-2 claims. l(cl. 24:-279) The present invention 'relates to-conduitrclamps and particularly to clamps comprising `a split sleeve around theconduit,-side bars or -lu'gssecur'ed toth'e ends o'f the split sleeve and tension means for drawing vthe side bars or lugs Vtoward one "anotherto 'tighten 'the clamp on'the conduit. The invention is particularly applicable vto so called band clamps used for repaiin'g'cracks or holes 'in pipes and comprising a strip or patchof rubber or other gasket material applied to the pipe over the hole, la -rnetal bandextending laround the pipe over the fgasket, bolt lugs provided at the ends of the band and one 'er iiiore bolts acting between the vlugs to Vdraw vvthe vband tight thereby press the "gasket material 'against V'the -p'ipe to close 'the hole.

A long 'standing 'problem Vwith clamps of this nature Iarises vfrom the fact that since "the pull lof Vvthe bolts 'or `other :tension means on the lugs is notfin 'line with the resistance of the sleeve, the lugs' are 'subjected to moments tending Ito roll them toward-one another. This rolling action may be -suicient to 2m'ake fthe -lugs bind on the bolts so that it is 4liiic'ult to 'draw the lugs together 'to apply tension lto the sleeve. If the lugs roll to the extent 'that their radially outer portions meet, much of the 'pull of the bolts 'it dissipatedjand the amount the ends 'of sleeve can `be pulled together is limte`d. TheV rolling 'of ithe lugs `rriay also tend to weaken 'the attachment `f the lu'g's to the sleeve. vIf itis vattemptedl to prevent rolling *by* securing rear portions of fthe lugs to the sleeve, the 4result is that portions ofthe Asleevet which the rear portions `'of the lu'gs are attached :are pulled out away 'from the conduit so that virtually no pressure is -applied in thosev areas.

It is `an object 'of the present :invention to prevent the rolling `of the side bars o'rflugs Sov-that they remain parallel to one another and substantially the entirefpull of the'boltsjor the tension ineans 'is 'utilized in moving the lugsfrectilnearlytoward one another to apply tension to thej sleeve. In 'accordance with'the invention, each of Ithe vlugs is provided with 'onejor more bearing sur- 'facesjextending substantially parallel to the direction of pull of thebolts or other tension lea'ns vand with circumferentially `extending portions projecting vbeyond the base {of I'the 'respective lug 'andslidjably bearing .in 'a radial direction on the 'corresponding 'bearing surface "of the lother lug to resist rolling o f 'the lug's by 'the pull 'of the tension means. The 'lugs h'enee move toward 'one'another a rectilinear, v'non-'rolling movement and substantially :the full 'elort -of the tension means is applied `to drawing `the split sleeve tighten the conduit. Moreover, the Aelinnina'tiori of rolling avoids weakening the attachment of the lugs to the split sleeve.

Another object 'of 'the invention is to provide a novel 'and improved means `for lattaching the side bars or lugs to the ends of the split vsleeve in an economical, convenient and effective manner.

Other objects andadvantages ofithe invention will vbe -understood from the following description and -claims 2 in conjunction with the 'accompanying vdrawir'rgs show by 'way ef 'eicample preferred embdinetsof lthe linvention"and in which:

Fig. 1 isa view showing'a clamp in `accordance'with the invention 'applied lto a pipe, Y'the view being taken planes perpendicular to the axisv of the pipe `and. showing one pair of'ilugs in `cross seetion and anotherfin'ed elevation.

Fig. 2 is'a radial section taken'app'roximately 'on the line 2-2 in Fig.` l.

Fig. 3 is a fragmentary cross section takenapproximately on the line 3--3 lin 2.

Fig. 4 is a schematic perspective view of V'z'ino'thjer ehi'- Lbodiment, portions `being 'brokenaway and shownin sec'- tions.

Fig. 5 "is 'a schematic perspective 'view of la third einbodir'nent with portions "broken away land shown in sections.

In Figs. l to 3 aii1-accordance withthe inven- 'tion ris shown applied tto la pipe *P to repair 'a crack or hole H. vThe clanp comprises 'a "g7a"sket 1 applied tothe surface of the pipe over the holefll, 'a split sleeve 'eXte1d'- ing around :the'pipe over 'thefgask'e sidebars or lgs'S secured 'to the ends of the splitisleeve Aland tension means in the form of bolts 4 withheads 5 and'j'nuts iGliorptl'lling the lugs Vxgetlelf*to v"draw thesplit 'sleeve '2.r 'tightly about tlrepi'pe -an'cl 'thereby press Ithe `gasketjagainsttl1`e pipe wall toprvide la uid'tigh't seal and-therebyfplef vent leakage vthrough fthe 'cirackfr hole H.

The split sleeve `2 -is shown in'the ='fo'injl f a.y iihle inetalband tothe'iendsof 'which thelu'gs 3 far'ejatt 'The bandfis iShown'as eoniprisirig two v`art/:irate hal 'sections with a 'pairof lugs at 'each side `o'f fthe'pipe. The sections :may 'be preformedfto arcuate shapejr raltern'atively are sueietlyiexiblf tto 'bend-readily curvature of the pipe. If desired, the sleevefmay eo' a single section 'extending arpundth'e pipe, with a sigle pair of lugs Y"secured to itsfe'nds, the band being sufficiently n exible te permit separation 'of .the jends to passfover the ypipe. Alternatively, more 'tyvol'sectiiismybe'u ed "for examplewhen 'the pipeV is fla'rger diameter Aia'illi't is desired to keep 'the sections relatively short. l The side'bars or lugs ,3 Aextend transversely of 'the Vband 12 andhencejpa'rallel 'to the the pipe. In the embodiment "shown Vin Figs. lt 13, 'all '-f the 'four lugs vale identical. t 'will be understood, hweveig'jthat `ltheftwo lugs o'fapair Yare reversed so `-that they face onefanother when the clamp is assembledgoh apipe. kEaeh of the vlugs '3 Vhas la flip pi't'ion'll which 'extends lengthwise of 'thegiug aaa .hence 'fr'aa'syefselzy vef the bandit. :The ylip 11 is-deined by the radially innersrface y'12 'of V'the' lu'g and the inner-surface of Va 'recess that/'eitte'nds inermi 1e`n'gthr ef the ing and opens at nefar- 'ward face of 'the lng. The 'band Z'engags-Wthe irl-Iier faceta f jthe nigga tem @renna thejlipjiifandgex- Ttehds intthe iece's'sfln.-y t its end, Vthebandi is 'cui'led 'at least part way abound asmall'rod `or wire`15 'whi'eh liesf'n the bottom of the recess *ahdeitends lengthwise f the lug'. The end edge of the band Ziiay, if 'be b ra'zed, vwelded or otherwise :seeured tothe 'wire '175 but thisis not necessary. The wire x15 land the engaging vlend portion ofthe band lare'seenred fin the-reee'ss .'"1`3 by a pluralityo'fnge'r-s ffburgsuichngers .being shownby way of example inPig. v2. .flhefngers '51`6 'are .preferably integral with the-.lug and project into -theireeess'l in adirection towardgtheface of thelu'g. They. are 4,initially .approximately parallel .toeand spaced :from .the radiallyouter kface ot the lip `p ortionL-'Il as showng'n .blanken `lin esl ir1 Fig. 3. After thelend `p'orticn't-.the l band Zjand the wire 1'5/ has been inserted in-the recess -13 the `ngers A16 rare bent radially. inwardlytowardfthe lip portion 11 -to grip the wire and band and thereby secure the end portion of lthe band 2 in the recess 13 of the lug.

The side bars or lugs 3 have portions 20V thatV extend radially outwardly and are apertured to provide bolt holes 21. One or more bolts vare used, depending on the width of the band 2 and the amount of tension it is desired to apply to the band. In Fig. 2 the lug is shown as-having two bolt holes. Each of the holes is shown asV being oval in cross sectional shape to receive a track head bolt. Moreover, the walls of the hole are shown diverging in a direction toward the face of the lug (Fig. l) to assure that the bolt holes of the lugs do not bind on the bolts.

When the bolts are tightened the heads Iand nuts of the bolts exert forces in -line with the bolts tending to pull the lugs toward one another while the ends of the band 2 exert forces in the opposite direction on the lip portion 11 of the lug. Since the bolts 4 are located radially outwardly of the lip portions 11, the forces exerted on the -lugs by the bolts and the band respectively produce moments tending to cause the radially outer portion'sof the lugs to roll toward one another. Thus referring to the left hand portion of Fig. 1 the lower lug tends to roll in a clockwise direction while the upper lug tends to roll in a counterclockwise direction. It is an object of the present invention to resist this tendency of the lugs to roll.

In accordance with the invention, each of the side bars or lugs 3 is provided with one or more arm portions 22 that project forwardly beyond the front face of the lug in a direction circumferential of the pipe. In the embodiment shown in Fig. 2, each lug is provided with two such arms, one on each of the radially outwardly projecting portions 20. Each of the arms 22 is shown as having a radially inner face 23 (Fig. 1) that is approximately parallel to the bolt 4 `and an inclined outer face 24 so that the arm is tapered. The arm 22 is located radially outwardly of its respective bolt and is offset laterally from the center of the bolt as will be seen in Fig. 2. Alongside each of the arms 22 the lug is provided with a bearing surface 25 which extends substantially parallel to the bolt 4 and is in substantially the same plane as the inner face 23 of the arm 22. The bearing surface 25 on each of the outwardly projecting portions 20 of the 4lug is olfset from a plane perpendicular to the axis of the pipe and passing through the center of the associated bolt 5, the amount of offset being approximately equal to that of projecting arm 22. Hence when the two lugs of a pair are reversed so as to face one another (Fig. 1) and the bolt holes of the lugs are aligned, the inner surfaces 23 of the arms 22 of one lug engage the bearing surfaces 25 of the other. As will -be seen in Fig. l, each of the arms 22 bears in a radial direction on the corresponding bearing surface 25 of the other lug and is slidable on the bearing surface in a direction approximately parallel to the bolt 4. It

will further be seen that engagement of the arms 22 with the corresponding bearing surfaces 25 prevents the rolling of the lugs. Thus considering the upper lug at the left hand side of Fig. 1 the pull of the holt 4 and the reactance of the band 2 produce a moment tending to cause the lug to roll in a counterclockwise direction. However, in order for the lug to roll, the outer (lower) end of the arm 22 would have to move radially inwardly toward the pipe. However, such movement is prevented by engagement of the arm 22 with the bearing surface 25 of the lower lug. Hence, the arm 22 serves as ato'rque arm which effectively resists the twisting moment applied to the lug by the pull of the bolt and the reaction of the split sleeve. As viewed in cross section (Fig.v l), the body portion of the Ilug including the inner lip 11 constitutes one arm of a bell crank lever while the torque arm 22 constitutes the other arm. The moment exerted on the lug by the pull of the bolt and the reaction of the split sleeve is counteracted by engagement of the arm 22 with the bearing surface of the other lug so that as the nuts 6 are tightened on the bolts 4 the lugs are drawn toward one another with a rectilinear or translational movement as distinguished from a rolling movement. As the torque arms 22 bear on the corresponding bearing surfaces 25 of the other lugs in a radial direction, the forces acting between the torque arms and the bearing surface-other than frictional forces-do not oppose the pull of the bolts. Hence, as the nuts are tightened on the bolts, the two lugs are drawn toward one another with a translational movement and substantially the entire tension of the bolts is applied to the split sleeve. The arms 22 slide freely on the bearing surfaces 25 as the lugs are drawn together. The bearing surfaces 25 and the engaging surfaces of the arms 22 are preferably smooth and are of suiciently large area to` withstand design forces without ga'lling so as to reduce friction to a minimum. Further reduction of friction may be obtained by suitable lubrication of the surfaces.

The gasket 1 is formed of suitable material to produce a fluid tight closure for the hole H in the pipe P when pressed against the pipe by the split sleeve 2. Rubber or other elastomeric materials are suitable for this purpose. The gasket may, if desired, be in the form of a local patch covering only the hole and a surrounding area. However, in Fig. l there is shown a full circle gasket extending entirely around the pipe and comprising two approximately semi-circular sections which are secured respectively-for example by adhesive-to the inner faces of the respective sections of the split sleeve. However, the ends 27 of the gasket sections are offset in a circumferential direction from the ends of the split sleeve sections so that the joints between the ends of the gasket sections do not occur at the spaces between the ends of the split sleeve sections. Preferably, the ends of the gaskets are delined by zig zag lines to provide spaced fingers 28 separated by spaces of the same width as the fingers so that when the clamp is assembled on the pipe the fingers on adjoining ends of the gasket intermesh with one another as illustrated in Fig. 2. This assures that the gasket will provide a fluid tight seal even though a hole or crack in the pipe occurs adjacent the joint between two ends of the gasket. Moreover, the intermeshing iingers permit the gasket to be used on pipes of dilerent diameters while still providing a full circle gasket. A bridge plate or strip 30 bridges the gap between the ends of the split sleeve to conne the gasket and apply pressure to it. The bridge plate 30 is preferably formed of high strength, corrosion resistant material, for example stainless steel, so that it can be relatively thin and still have adequate strength. It is conveniently secured, for example adhesively, to the outer face of the gasket 1 so as to be in proper position to bridge the gap between the sleeve end when the clamp is assembled. In Fig. 1 the lugs at the right hand side are shown in loosely assembled condition. It will be seen that the portion of the gasket underlying the bridge plate 30 has the same thickness as the rest of the gasket. When the 'lugs 3 are drawn together by the bolts 4 as illustrated at the left hand side of Fig. 1, the bridge plate 30 is pressed into the gasket so that the gasket pressure at the bridge plate is increased. This tends to compensate for any decrease of pressure that might otherwise occur because of the fact that the central portion of the bridge plate is not directly supported by the split sleeve structure.

Another embodiment is illustrated in Fig. 4 in which corresponding parts are indicated by the same reference numerals as in Figs. 1 to 3 with the addition of 30. The clamp comprises a gasket 31, a split sleeve in the form of a band 32, lugs 33 secured to the ends of the band and bolts 34 for drawing the lugs together. Each of the lugs has a longitudinally extending inner lip 41 defined fammes by 'the inner surface 42 Yof the lug anda longitudinal channel 43 that 4extends inwardly from'thcfi'ontface l44 of the lug. The channel P43 ispreferably in th'eform yof a saw cut vextendingflengthwise.of the lng. The band v32 engages the inner face 42 of the lug,` is bent Yaround over the inner lip 41 and has its endxportion'extending y'into the channel 43 between ythe inner lip 41 and an outer lip portion 47. The fend portion `of the band is conveniently secured in the channel 43 by E'pressing the inner-and outer lips of the lug together with suicient force -to deform the material andpermanentlyffg'rip the end .portion of the band 32.

Each of the lugs 33 is provided with radiallyoutwardly projecting portions 50 wl:'1i `:h/ are `apertured -toprovide bolt holes 51 for the bolts 34. 1Each ofthe-lugs isvalso provided with a plurality of torque -arms 52 which project forwardly beyond Vthe front face 44 of Vthe lug in a circumferential direction and 'engage corresponding bearing surfaces 55 provided on the other lng of Athe pair. It will be noted that the torque'arms l52-and.bearing'surfaces -55 in Fig. 4 are Vlocated between-the bolts and on 4the end `portions 'of the lugs instead of on the radially projecting .portions 50. The bearing surfaces 55 are-approximately Vin a plane dened by-theaxes of the bolts 34. VWhile each of the lugs has been shown with two bolt holes and four torque arms, it'will be understood that they may be extended togreater length V-as desired `with duplication of bolt holes, torque :arms and bearingisurfaces. Conversely, the llugs shown in Fig. 4 canl be cut in half, each half having one bolthole and-two `torque arms. Except as otherwise described, the clamp of Pig. 4 is like that of Figs. l to 3. Engagementof the torque arms52 in a radial direction `against fthe bearing surfaces 55 of the opposite lug prevents rolling of the lugs in like manner.

A third embodiment of the .invention .-is illustrated in Fig. 5 where corresponding parts are designated by the same reference numerals 'as yin Figs. l to 3 with the Vaddition of 60. The clamp comprises -a gasket 61 anda split sleeve `62 having its endssecured respectively tov lugs `63a andV 63b which -are adapted tobe =drawn toward one =an other by a bolt -64. lThe endsolf-the band 62-ar`e shown secured to the lugs in the same manner as in Fig. 4. Each of the lugs has a portion 80a and 80b respectively that projects radially outwardly and is apertured to receive the bolt 64. However, in the embodiment of Fig. 5, the lugs are not identical. One of the lugs 63a has a single torque arm 82a which projects forwardly from the front face of the lug in a circumferential direction and bears in a radial direction on a bearing surface 85b of the other lug 6321. The latter lug 63b has two torque arms 82b which are disposed on opposite sides of the torque arm 82a and engage bearing surfaces 85a on the lug 63a. The two torque arms 32b are preferably connected by a bridge portion 86. The torque arms 82b may thus be considered as constituting a single torque arm of U-shaped cross section straddling the torque arm 82a of the lug 63a. It will be seen that the structure of the lugs is symmetrical with respect to a plane perpendicular to the axis of the pipe and passing through the axis of the bolt 64. The structure shown in Fig. 5 is particularly suitable for use with a narrower band 62 and a single bolt since the arrangement of the torque arms not only keeps the lugs from rolling but also assists in keeping the lugs in alignment and parallel to one another. However, it will be understood that the lugs may be extended and provided with more bolts, the structure shown in Fig. S being duplicated. Except as otherwise shown and described the clamp shown in Fig. 5 is like that of Figs. l to 3 and works in like manner.

It will be understood that the various constructional features of the embodiments illustrated in the drawings are mutually interchangeable and moreover that the invention is in no way limited to the particular embodiments vshownby vwayY of example Yin Athe drawingsfandfherein Vends spaced circumferentially, 'apair of Vlugs secured respectively to said spaced ends of said sleeve means, ysaid lugs 'extending radially outwardly from lsaid sleeve rmeans and facing each other, tension means connecting said lugs with one another and operable to draw said lugs 'tolgether, said tension means acting on said-lugs radially outwardly of said -sleeve means and applying a moment `tending to roll the radially outer portions of said lugs toward one another, each of: said lugs vhaving a bearing surface `extending substantially parallel to the direction of pull of said tension means and circumferentially extendingportions projecting beyond theface of the respective lu'gland overlapping the bearing portions of the other of said flugs so as to bear in -a radial direction on saidbearing-surface of the other of said lugs to resist thegrolling of said lugs by Ithe pull of said tension means, said circumferentially extending portions sliding ina circumferential direction-on said bearing portions -to `.guide said -lugs in substantial-ly vrectilinear lmovement as they are drawn toward one V'another by said tension means.

2. A clamp according to claim l-, Vin which said bearing surfaces and said projecting portions are'disposed radially outwardly of said tension means.

`lugs radially outwardly of said sleeve meansand thereby applying a moment tending to roll said -lugstoward each other, each of said -lugs -having a bearing surface-and at least-one arm projecting circumferentiallybeyond the face of the respective Vlug and overlappingthe bearing Vsurface of the other 'of said lugs-so as to *bear onfsaid bearing surface of the other of said lugs in a radial direction and slide on said surface in a direction parallel to said bolt to resist the rolling of said lugs and guide said lu-gs in substantially rectilinear movement as they are drawn toward one another by said bolt.

4. A conduit clamp according to claim 3, in which said sleeve means comprises a thin flexible band.

5. A conduit clamp comprising split sleeve means, extending around the conduit with opposite ends spaced circumferentially, a pair of lugs secured respectively to said ends of said sleeve means, said lugs facing each other and having aligned bolt holes disposed radially outwardly of said sleeve means, bolts extending through said holes and operative to draw said lugs toward one another, the pull of said bolts acting on said lugs radially outwardly of said sleeve means and thereby applying a movement tending to roll said lugs toward each other, each of said lugs having a plurality of bearing surfaces and a plurality of arms alternately arranged, said arms projecting circumferentially beyond the face of the respective lug and overlapping the bearing surfaces of the other of said lugs so as to bear on said bearing surfaces of the other of said lugs in a radial direction to resist the rolling of said lugs by the pull of said bolts, said projecting arms of each of said lugs being slidable on the bearing surfaces of the other of said lugs in a direction parallel to said bolts to guide said lugs in substantially rectilinear movement as they are drawn toward one another by said bolts.

6. A conduit clamp according to claim 5, in which said lugs are identical with one another.

7. A conduit clamp comprising split sleeve means extending around the conduit with opposite ends spaced circumferentially, a pair of lugs secured respectively to said ends of said sleeve means, said lugs facing each other and having aligned bolt holes disposed radially outwardly of said sleeve means, a bolt extending through said holes and operative to draw said lugs toward one another, the pull of said bolt acting on said lugs radially outwardly of said sleeve means and thereby applying a movement tending to roll said lugs toward each other, one of said lugs having an arm which is disposed radially outwardly of said bolt and which extends in a direction substantially parallel to said bolt and bears radially on the other of said lugs, said other lug having a pair of arms which are disposed on opposite sides of said iirst mentioned arm and which extend in a direction substantially parallel to said bolt and bear radially on said lirst mentioned lug, said arms being slidable on the lugs on which they bear in a direction parallel to said bolt as said bolt draws said lugs toward one another and restraining said lugs from rolling so that they move toward one another with a straight translational movement.

8. A conduit clamp comprising a pair of lugs extending lengthwise along one side of the conduit and facing one another, each of said lugs having an elongated lip adjacent the conduit and a recess radially outwardly of said lip, split sleeve means extending around the conduit and comprising a exible band having end portions extending lengthwise of the conduit, each of said end portions extending between a respective one of said lugs and being bent back over said lip with the end of the band in said recess, means securing the end of said band in said recess, said lugs having aligned bolt holes disposed radially outwardly of said lugs, at least one bolt extending through said holes and operative to draw said lugs toward one another, the pull of said bolt acting on said lugs radially outwardly of the pull of said band to produce la moment tending to roll said lugs toward one another,

each of said lugs having a bearing surface extending substantially parallel to said bolt and at least one torque arm projecting beyond the face of the lug and overlapping the bearing surface of the other of said lugs so as to bear in a radial direction on said bearing surface of the other of said lugs to resist the rolling of said lugs, said arms being sldable on said bearing surfaces in a direction substantially parallel to said bolt to guide said lugs in substantially rectilinear translating movement as said lugs are drawn toward one another by said bolt to apply tension to said band.

9. A conduit clamp according to claim 8, -in which the means securing the end of said band in said recess of said lug comprises malleable fingers on said lug bent down to grip the end of said band between said lingers and said lip.

l0. A conduit clamp according to claim 9, in which a bead is provided along the end of said band and in which said fingers grip said bead.

1l. A conduit clamp comprising a pair of lugs extending in a lengthwise direction along one side of the conduit and facing one another, each of said lugs having a body portion, an elongated lip adjacent the conduit and an elongatedrecess radially outwardly of said lip on the front face of said lug and defined between said lip and body portion, split sleeve means extending around the conduit and comprising a flexible band having end portions extending lengthwise of the conduit, each of said end portions passing between the conduit and a respective one of said lugs and being bent back over said lip with the end of said band in said recess, a bead being provided along the end of said band, each of said lugs having spaced malleable fingers projecting forwardly from said body portion and bent down over the end portion of said band to grip said end portion between said lingers and said lip and secure said bead in said recess.

12. A conduit clamp according to claim 1l, in which said bead comprises a Wire and an end edge portion of said band bent at least part way around said wire.

References Cited in the file of this patent UNITED STATES PATENTS 866,876 Meech Sept. 24, 1907 875,293 Scott Dec. 31, 1907 1,907,889 Stauier May 9, 1933 2,195,893 McGann Apr. 2, 1940 2,713,352 Schustack July 19, 1955 

